Targeted next-generation sequencing on Hirschsprung disease: a pilot study exploits DNA pooling.

To adopt an efficient approach of identifying rare variants possibly related to Hirschsprung disease (HSCR), a pilot study was set up to evaluate the performance of a newly designed protocol for next generation targeted resquencing. In total, 20 Chinese HSCR patients and 20 Chinese sex-matched individuals with no HSCR were included, for which coding sequences (CDS) of 62 genes known to be in signaling pathways relevant to enteric nervous system development were selected for capture and sequencing. Blood DNAs from eight pools of five cases or controls were enriched by PCR-based RainDance technology (RDT) and then sequenced on a 454 FLX platform. As technical validation, five patients from case Pool-3 were also independently enriched by RDT, indexed with barcode and sequenced with sufficient coverage. Assessment for CDS single nucleotide variants showed DNA pooling performed well (specificity/sensitivity at 98.4%/83.7%) at the common variant level; but relatively worse (specificity/sensitivity at 65.5%/61.3%) at the rare variant level. Further Sanger sequencing only validated five out of 12 rare damaging variants likely involved in HSCR. Hence more improvement at variant detection and sequencing technology is needed to realize the potential of DNA pooling for large-scale resequencing projects.

Screening of the RET gene of Vietnamese Hirschsprung patients identifies 2 novel missense mutations.

BACKGROUND/PURPOSE: Hirschsprung disease (HSCR; megacolon, congenital aganglionosis) is a congenital disorder characterized by the absence of ganglion cells along variable segments of the gut. Both rare (RV) and common variants of the RET gene are associated with HSCR. The aim of this study is to assess, for the first time, the variation in the RET gene of Vietnamese HSCR patients. METHODS: We used Sanger sequencing to screen the coding sequence of the RET gene of 97 Vietnamese HSCR patients of Southern Chinese ancestry. The healthy population consisted of 250 Southern Chinese individuals with no diagnosis of HSCR. RESULTS: We detected 8 heterozygous RVs distributed among 13 patients (13.40%) and that were not present in healthy individuals. Among those variants, there were 2 novel and deleterious (R133C [c.397 C>T]; R144C [c.430 C>T]) missense amino acid substitutions, 2 novel silent variants (P667P [c.2001 A>T]; Y809Y [c.2427 C>T]), and 4 previously described missense substitutions (R114H [c.341 G>A]; V292M [c.874 G>A]; G533S [c.1597 G>A]; R982C [c.2944 C>T]). As expected, the common RET coding sequence variants rs1800858 (A45A [c.135 G>A]) and rs1800861 (L769L [c.2307 T>G]) were highly associated with the disease. CONCLUSIONS: The identification of novel deleterious variants together with the fact RET RVs are virtually unique to HSCR patients indicates that the RET gene is a target for mutations among Hirschsprung patients of any population.